KR101593441B1 - wind generator - Google Patents

Abstract

The present invention relates to a wind power generator which can improve power generation efficiency by further increasing a rotation speed of an input shaft of the generator compared to a rotation speed of a rotor, and comprises: a column wherein a horizontal plate is formed in an upper portion, and a vertical shaft protrudes in a central portion of the horizontal plate; a rotation housing connected to the vertical shaft through a rotation connection means to be rotationally mounted about the vertical shaft, of which the inside is empty; a rotation shaft longitudinally provided to be rotated inside the rotation housing, wherein an end portion of the front and the rear protrudes in the outside of the housing for the rotor to be mounted on each of end portions of the front and the rear; and a speed increase power generation means provided to be connected to the rotation shaft inside the rotation housing, and generating power through the input shaft of the generator rotated at a rotation speed faster than that of the rotation shaft interlocked with the rotor.

Description

Wind generator {wind generator}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wind turbine generator, and more particularly, to a wind turbine generator capable of improving power generation efficiency by further increasing a rotation speed of a generator input shaft relative to a rotation speed of a rotor.

Generally, wind power is a clean energy that is not depleted, and is attracting attention as an energy source with the highest growth rate among alternative energy sources. Therefore, in recent years, a wind turbine generator for generating electricity using wind turbine has been actively developed.

Conventional wind turbine generators are known as horizontal wind turbine generators and vertical wind turbine generators, and a hybrid type turbomachine generator is known which combines both horizontal and horizontal turbine generators.

Accordingly, the present invention relates to a wind turbine generator of a horizontal axis type, which is an improvement of a conventional horizontal turbine wind turbine generator. First, a "wind turbine generator" of Korean Patent Registration No. 1521619 Wind turbine generator ").

A conventional wind turbine generator includes a column having a horizontal plate at an upper portion thereof and a vertical axis projecting at a center of the horizontal plate, a rotary housing connected to the vertical axis through rotary connection means and rotatably mounted about a vertical axis, One or more generators mounted in the interior of the rotary housing and each having one or more input shafts protruding outward of the rotary housing and the electric lead wires leading out of the rotary housing; Rotor.

The rotor includes a connection bracket mounted on an input shaft and having a radially protruding connection plate protruding from a periphery thereof in a direction perpendicular to the input shaft, and a plurality of blades having inner ends connected and fixed to the protruding connection plates.

However, in the conventional wind power generator constructed as described above, since the rotor is directly connected to the input shaft of the generator, the rotation speed of the rotor and the rotation speed of the input shaft are always equal to 1: 1.

Therefore, in the conventional wind turbine generator, the rotation of the rotor is transmitted to the input shaft of the generator at a ratio of 1: 1, so that power generation through the input shaft rotated at the same rotation speed as the rotor is possible. Had an impossible problem.

"Wind Power Generator" of Korea Patent No. 1521619 (May 15, 2015)

Accordingly, the present invention is an improvement of a conventional wind power generator registered by the present applicant,

SUMMARY OF THE INVENTION An object of the present invention is to provide a wind turbine generator capable of improving power generation efficiency by further increasing the rotational speed of a generator input shaft than a rotor rotational speed.

It is a further object of the present invention to provide a method of controlling a rotation speed of a rotary shaft by making a rotation speed of a rotary shaft on which a rotor is mounted as close as possible to a bottom of a rotary housing, The present invention provides a wind turbine generator which can more firmly fix a rotary shaft to the bottom of a rotary housing by lowering the height of a supporting bearing bracket to a maximum.

Another object of the present invention is to provide a power generator having a generator protruding outward on one side of a rotating housing and having an accelerator protruding outward on the other side of the rotating housing, And to enable the rotary housing to be rotated more precisely when the wind direction is changed.

It is a further object of the present invention to provide a power generating apparatus in which the generator is arranged vertically in the upper portion of the rotary housing and the accelerator is provided in front of the generator to maximize the width of both sides of the rotary housing, To a wind power generator.

It is another object of the present invention to provide a wing reel that can reduce the manufacturing cost of a direction changing blade by providing only one wing blade at the rear of a vertical wing blade constituting a wing blade, And the durability of the sloping blade can be further improved by providing the wind turbine further.

In order to achieve the above object, a "wind turbine generator" according to the present invention includes: a column having a horizontal plate at an upper portion and a vertical axis at a center of a horizontal plate; A rotary housing connected to the vertical shaft through a rotary connection means and rotatably mounted on a vertical axis and having an interior space; A rotary shaft having a front end and a rear end protruding from the housing and having a rotor mounted at a front end and a rear end, respectively; And an accelerating power generating unit connected to the rotating shaft inside the rotating housing and generating electric power through a generator input shaft that rotates faster than the rotating speed of the rotating shaft cooperating with the rotor.

Further, the speed-increasing and power generating means of the "wind power generator" according to the present invention includes a first gear mounted on the rotating shaft, a first gear mounted inside the rotating housing, And a speed increasing connection portion connecting the first gear and the generator input shaft to increase the rotational speed of the input shaft relative to the rotational speed of the rotating shaft.

The speed increasing connection portion of the "wind power generator" according to the present invention further includes a speed increasing portion that is provided in the housing and includes a speed reducer input shaft and a power generator output shaft connected to the input shaft of the power generator, And a second gear engaged with the first gear.

The front and rear portions of the rotating shaft of the "wind turbine generator" according to the present invention are fixed by bearing brackets provided at the front and rear of the bottom of the housing, and the diameter of the pitch circle of the second gear is & Is larger than the diameter of the pitch circle.

The first and second gears of the "wind turbine generator" according to the present invention are constituted by spur gears, the generator is installed laterally on one side of the upper surface of the rotary housing through one supporting member, Wherein the speed reducer is installed laterally on the other side of the upper surface of the rotary housing through the other supporting member and the inside of the booster is provided with a booster output shaft connected to the input shaft, And a lower portion of the first and second gears is provided at the bottom of the rotary housing. The lower portion of the first and second gears is immersed in the lubricating oil filled in the lubricating oil .

Further, the first gear and the second gear of the "wind turbine generator" according to the present invention are constituted by bevel gears, and the second gear is horizontally disposed on the upper portion of the first gear, The speed reducer is provided in the front of the rotary housing through a fixed support member, and the speed reducer is provided on the rear of the input shaft, And a booster input shaft is provided at a lower portion of the booster to allow the second gear to be mounted at the center of the booster.

Further, the wind turbine generator of the "wind turbine generator" according to the present invention further includes a direction changing blade formed so as to protrude from the upper portion of the rotating housing, wherein the direction changing blade has a lower end fixed to the rear upper portion of the rotating housing And a wing rib which connects the front of the vertical wing plate and the upper front side of the rotary housing, and a rear wing plate which is formed at a rear end of the vertical wing plate, .

According to the present invention configured as described above, there is an effect that the power generation efficiency can be improved by further increasing the rotational speed of the generator input shaft than the rotational speed of the rotor.

According to the present invention, as the size of the second gear mounted on the speed increasing gear is larger than that of the first gear fixed on the rotating shaft, the rotation shaft on which the rotor is mounted is made as close as possible to the bottom of the rotating housing, By lowering the height of the bracket to a maximum level, the rotation shaft is more firmly fixed to the bottom of the rotary housing, so that the minute vibration of the rotary shaft can be minimized and noise can be reduced.

In addition, the present invention is characterized in that the generator includes a generator protruding outward on one side of the rotary housing, and an accelerator that protrudes outward on the other side of the rotary housing allows the weight balance on both sides of the rotary housing to be substantially the same, There is also an effect of providing a wind turbine generator with stable operation as the rotary housing is rotated more precisely at the time of change.

In addition, since the generator is arranged in the longitudinal direction in the upper part of the inside of the rotary housing and the accelerator is provided in front of the generator, the width of both sides of the rotary housing is minimized to minimize the air resistance of the rotary housing, There is also an effect of providing a wind turbine generator capable of further improving the performance of the wind turbine generator.

In addition, the present invention has the effect of reducing manufacturing cost of the direction changing blade by reducing the manufacturing cost of the direction changing blade by providing only one inclined blade at the rear of the vertical blade constituting the direction changing blade, The durability of the inclined blade can be further improved.

1 is a perspective view of a wind turbine generator according to a first embodiment of the present invention;
FIG. 2 shows the interior of the wind turbine of the first embodiment according to the present invention,
2A is a perspective view,
2B is a perspective view in which the direction changing blade is omitted,
Figure 2c is an enlarged view of the interior of Figure 2b,
2D is a side view,
2E is a plan view.
FIG. 3 shows the interior of a wind turbine generator according to a second embodiment of the present invention,
Fig. 3A is a side view,
Fig. 3B is a plan view.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the invention can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

1 is a perspective view showing a wind turbine generator according to a first embodiment of the present invention. 2 is a perspective view of a wind turbine according to a first embodiment of the present invention. FIG. 2a is a perspective view, FIG. 2b is a perspective view in which a direction changing blade is omitted, FIG. , Fig. 2D is a side view, and Fig. 2E is a plan view.

As shown in the drawings, a wind turbine generator 42 according to a first embodiment of the present invention includes a pillar 1, a rotary housing 2 rotatably provided at an upper portion of the pillar 1, 2 includes a rotation shaft 3 provided with protrusions forward and rearward and having a rotor 31 at the front and rear and a speed increasing and generating means 4 provided inside the rotating housing 2.

The column 1 is fixed on the floor of the building or the floor and is vertically erected. The horizontal plate 11 is formed on the upper part and the vertical axis 111 is protruded on the center of the horizontal plate 11.

The rotary housing 2 is connected to the vertical shaft 111 through a known rotary connection means such as a bearing and is rotatably mounted around the vertical shaft 111 and is hollow. The power generator 44 and the generator 42 constituting the rotating shaft 3 and the speed increasing and power generating means 4 are firmly fixed to the rotating housing 2 while reinforcing the strength of the rotating housing 2. [ It is preferable that the reinforcement inner frame 21 is further provided.

2, the rotary shaft 3 constituting the present invention is constituted such that the rotor 31 is fixed to the front and the rear of the rotary shaft 3 so that the rotational force transmitted from the front and rear rotor 31 is transmitted to the speed- (4).

The rotary shaft 3 having such a function is provided in the longitudinal direction so as to be rotatable in the rotary housing 2 and the front and rear end portions are projected to the outside of the rotary housing 2, And the rotor 31 is mounted on the rear end.

The rotor 31 is mounted on the rotary shaft 3 so as to replace the blades constituting the rotor 31 and has a connection bracket 311 for protrudingly forming a radial protruding connection plate in a direction perpendicular to the rotary shaft 3 And a plurality of blades 312 having inner ends connected to the protruding connection plates.

The front and rear of the rotary shaft 3 are preferably fixed to the bearing bracket 22 provided at the front and rear of the bottom of the rotary housing 2 so that the rotary shaft 3 can be rotated smoothly.

2, the speed-increasing and power generating means 4 constituting the present invention is connected to the rotating shaft 3 in the inside of the rotating housing 2. As shown in FIG.

The speed increasing and generating means 4 connected to the rotating shaft 3 can rotate the input shaft 421 of the generator 42 faster than the rotating speed of the rotating shaft 3, A first gear 41 mounted on the rotary housing 2 and a second gear 41 mounted on the rotary housing 2 so as to be drawn out from the rotary housing 2 to the outside of the rotary housing 2, (421) for connecting the first gear (41) and the input shaft (421) of the generator (42) to increase speed of rotation of the input shaft (421) It is most preferable that the connecting portion 43 is formed.

The speed increasing connection part 43 is provided in the rotary housing 2 and includes a speed increasing device 441 including a speed increasing device input shaft 441 and a speed increasing device output shaft 442 connected to the input shaft 421 of the generator 42 And a second gear 45 mounted on the input shaft 441 for engaging with the first gear 41. The plurality of speed increasing gears are meshed with each other so that the speed of rotation of the speed increasing output shaft 442 is faster than the speed of the speed increasing input shaft 441. 44 are known in the prior art, so a detailed description thereof will be omitted.

The first gear 41 and the second gear 45 are connected to each other in such a manner that the balances of the two sides of the rotary housing 2 can be substantially equalized. And the generator 42 is installed on one side of the upper surface of the rotary housing 2 in a transverse direction through one supporting member B1 and the input shaft 421 protrudes inside, The output shaft 44 is installed laterally on the other side of the upper surface of the rotary housing 2 through the other supporting member B2 and a gearbox output shaft 442 connected to the input shaft 421 is disposed inside the gearbox 44, And a booster input shaft 441 mounted at the center of the second gear 45 is provided at the rear of the booster 44.

The rotation housing 2 is provided with a generator 42 protruding outwardly at one side of the rotary housing 2 and a speed reducer 44 projecting outward at the other side of the rotary housing 2, It is possible to maintain the balance of the weight on both sides of the belt-like member. Therefore, according to the present invention, since the weight balance of both sides of the rotary housing 2 is kept substantially equal, the rotation housing 2 can be rotated more precisely when the wind direction is changed, 42 can be provided.

A lower portion of the first and second gears 41 and 42 is filled in the bottom of the rotating housing 2 which is a lower portion of the first gear 41 and the second gear 45, 23 may be provided. Therefore, according to the present invention, since the first and second gears 41 and 42 are submerged in the lubricating oil, the first and second gears 41 and 42 smoothly engage with each other, .

The diameter of the pitch circle of the second gear 45 may be set to be smaller than the diameter of the pitch circle of the first gear 41 in order to minimize the height of the rotary shaft 3 on which the rotor 31 is mounted, It is preferable to form it larger. That is, according to the present invention, as the diameter of the first gear 41 mounted on the rotary shaft 3 is reduced, the height between the rotary shaft 3 and the bottom of the rotary housing 2 can be minimized.

The present invention is advantageous in that the size of the second gear 45 mounted on the speed increasing gear 44 is made larger than the first gear 41 fixed to the rotating shaft 3, Can be maximally brought close to the bottom of the rotary housing 2 and the height of the bearing bracket supporting the rotary shaft 3 can be minimized. Therefore, according to the present invention, since the height of the bearing bracket 22 supporting the rotary shaft 3 is minimized, the rotation shaft 3 is more firmly fixed to the bottom of the rotary housing 2, It also has the advantage of reducing noise by minimizing vibration.

1 and 2, the wind turbine generator 42 according to the present invention may further include a direction changing blade 5 formed to protrude from the upper portion of the rotary housing 2. As shown in FIG.

The direction changing blade 5 is provided with a vertical blade plate 51 having a lower end fixed to the upper portion of the upper portion of the rotary housing 2 and having a pointed front end so as to improve durability while lowering the manufacturing cost, 51 and an inclined wing plate 52 inclined to one side of the rear side of the rear end portion of the vertical wing plate 51 and a wing ridge 53 connecting the front of the vertical wing plate 51 and the upper front of the rotary housing 2 Most preferred.

Therefore, the present invention includes only one inclined blade plate 52 at the rear of the vertical blade 51 constituting the direction changing blade 5, thereby lowering the manufacturing cost of the direction changing blade 5, There is also an advantage that the durability of the oblique vane plate 52 is further improved by further providing a wing bar 53 in front of the oblique vane plate 52. [

Hereinafter, the operation of the wind turbine generator 42 according to the first embodiment of the present invention will be described.

As shown in FIGS. 1 and 2, when the wind turbine generator 42 of the first embodiment of the present invention is used to generate electricity, the rotation direction of the rotary housing 2 is changed from time to time corresponding to the wind direction do.

When the rotary housing 2 changes its direction along the wind direction, the two rotors 31 provided on the front and rear sides of the rotary shaft 3 face the wind. Thus, the two rotors 31 and the rotary shaft 3) are rotated at the same speed.

When the next rotation shaft 3 is rotated, the first and second gears 41 and 45 connected to the rotation shaft 3 are rotated to transmit the rotational force to the gearshift unit 44. The gearshift unit 44 increases the rotational speed And the input shaft 421 of the generator 42 is rotated at a higher speed to produce electricity.

Therefore, according to the present invention, the rotational speed of the input shaft 421 of the generator 42 is further increased than the rotational speed of the rotor 31 as described above, to be.

Fig. 3 shows the inside of the wind turbine generator of the second embodiment according to the present invention. Fig. 3a is a side view and Fig. 3b is a plan view.

3, the wind turbine generator 42 of the second embodiment according to the present invention excludes the configuration of the first gear 41, the second gear 45, the generator 42, and the speed reducer 44 And the remaining configuration includes all the configurations of the first embodiment described above.

Therefore, the first gear 41 and the second gear 45 constituting the wind turbine generator 42 according to the second embodiment of the present invention are constituted by bevel gears, And the generator 42 is installed horizontally on the upper portion of the rotary housing 2 through the fixed support member F and the input shaft 421 is projected on the front side The speed reducer 44 is provided in the front of the generator 42 inside the rotary housing 2 through a fixed support member F and the input shaft 421 And a booster input shaft 441 is provided at a lower portion of the booster 44 so that the second gear 45 is mounted at the center of the booster output shaft 442.

The wind turbine 42 according to the second embodiment of the present invention is characterized in that the generator 42 is longitudinally arranged in the upper part of the inside of the rotary housing 2 and the booster 44 is provided in front of the generator 42 The width of both sides of the rotary housing 2 can be reduced to the maximum. Therefore, the wind turbine generator 42 according to the second embodiment of the present invention can reduce the air resistance of the rotary housing 2 to the minimum by further reducing the width of both sides of the rotary housing 2 to a minimum, It is a useful invention.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is clear that the present invention can be suitably modified and applied in the same manner. Therefore, the above description does not limit the scope of the invention defined by the limitations of the following claims.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

1: Column
11: Horizontal plate
111: vertical axis
2: Rotating housing
21: Internal frame
22: Bearing bracket
23: Lubrication distribution
3:
31: Rotor
311: connection bracket, 312: blade
4: Incremental power generation means
41: first gear
42: generator
421: input shaft
43:
44: Speedometer
441: Steering machine input shaft, 442: Steering machine output shaft
45: second gear
B1: One supporting member
B2: the other supporting member
F: Fixed support member
5: Directional wings
51: Vertical blade plate
52: oblique blade plate
53: wing rib

Claims (7)

A column 1 having a horizontal plate 11 formed on an upper portion thereof and a vertical axis 111 protruding from the center of the horizontal plate 11;
A rotary housing 2 connected to the vertical shaft 111 through a rotary connection means and rotatably mounted on the vertical shaft 111 and hollow inside;
The front and rear end portions protrude to the outside of the rotary housing 2 and are rotatably mounted on the front and rear end portions of the rotary housing 2, 3);
The rotary shaft 3 is connected to the rotary shaft 3 through an input shaft 421 of the generator 42 which is rotated at a speed higher than the rotational speed of the rotary shaft 3 interlocked with the rotor 31 (4) for generating electric power,
The speed-increasing and power generating means (4)
A first gear 41 mounted on the rotary shaft 3,
A generator (42) mounted in the inside of the rotary housing (2) and having an electric lead wire drawn out to the outside of the rotary housing (2) and including the input shaft (421)
And a speed increasing connection portion 43 connected between the first gear 41 and the input shaft 421 of the generator 42 to increase the rotational speed of the input shaft 421 relative to the rotational speed of the rotating shaft 3 and,
The increased speed connection (43)
A booster 44 provided within the housing and including a booster input shaft 441 and a booster output shaft 442 connected to an input shaft 421 of the generator 42,
And a second gear (45) mounted on the speed increasing device input shaft (441) and engaged with the first gear (41)
The first gear 41 and the second gear 45 are composed of spur gears,
The generator 42 is installed on one side of the upper surface of the rotary housing 2 through a supporting member B1 in a lateral direction and has the input shaft 421 protruded inside,
The booster 44 is installed laterally on the other side of the upper surface of the rotary housing 2 through the other supporting member B2,
An inner shaft of the speed changer 44 is provided with a booster output shaft 442 connected to the input shaft 421,
A booster input shaft (441) mounted at the center of the second gear (45) is provided at the rear of the booster (44)
The lower portion of the first and second gears 41 and 42 is provided at the bottom of the rotary housing 2 which is a lower portion of the first gear 41 and the second gear 45, And a wind turbine.
delete delete The method according to claim 1,
The front and rear portions of the rotary shaft 3 are fixed by bearing brackets 22 provided at the front and rear of the bottom of the housing,
And the diameter of the pitch circle of the second gear (45) is larger than the diameter of the pitch circle of the first gear (41).
delete 5. The method of claim 4,
The first gear 41 and the second gear 45 are constituted by bevel gears,
The second gear 45 is horizontally disposed on the upper portion of the first gear 41,
The generator 42 is longitudinally installed in the upper portion of the interior of the rotary housing 2 through a fixed support member F, the input shaft 421 protrudes forward,
The speed reducer 44 is provided in front of the generator 42 inside the rotary housing 2 through a fixed support member F,
The booster output shaft 442 connected to the input shaft 421 is provided at the rear of the booster 44,
And a booster input shaft (441) is provided at a lower portion of the booster (44) to mount the second gear (45) at the center.
The method according to claim 1,
The wind turbine generator (42)
And a direction changing blade (5) formed to protrude from the upper portion of the rotary housing (2)
The direction changing blade (5)
A vertical blade 51 having a lower end fixed to the upper rear of the rotary housing 2 and having a sharp front,
An inclined blade 52 formed at a rear end of the vertical blade 51 to be inclined rearwardly,
A blade rib 53 connecting the front of the vertical blade 51 and the upper front of the rotary housing 2,
And the wind turbine generator is connected to the wind turbine generator.

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